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Influence Mechanisms of Trace Rare-Earth Ce on Texture Development of Non-Oriented Silicon Steel
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Influence Mechanisms of Trace Rare-Earth Ce on Texture Development of Non-Oriented Silicon Steel
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Journal Article
Influence Mechanisms of Trace Rare-Earth Ce on Texture Development of Non-Oriented Silicon Steel
2025
Overview
The effects of trace Ce on the microstructure and texture of non-oriented silicon steel during recrystallization and grain growth were examined using X-ray diffraction and electron backscatter diffraction. Additionally, this study focused on investigating the mechanisms by which trace Ce influences the evolution of the 114 and γ-fiber textures. During the recrystallization process, as the recrystallization fraction of annealed sheets increased, the intensity of α-fiber texture decreased, while the intensities of α*-fiber and γ-fiber textures increased. The 111 grains preferentially nucleated in the deformed γ-grains and their grain-boundary regions and tended to form a colony structure with a large amount of nucleation. In addition, the 100 and 114 grains mainly nucleated near the deformed α-grains, which were evenly distributed but found in relatively small quantities. The hindering effect of trace Ce on dislocation motion in cold-rolled sheets results in a 2–7% lower recrystallization ratio for the annealed sheets, compared to conventional annealed sheets. Trace Ce suppresses the nucleation and growth of γ-grains while creating opportunities for α*-grain nucleation. During grain growth, trace Ce reduces γ-grain-boundary migration rate in annealed sheets, providing growth space for 114 grains. Consequently, the content of the corresponding 114 texture increased by 6.4%, while the γ-fiber texture content decreased by 3.6%.
Publisher
MDPI AG,MDPI
Subject
